Rationally designing roll-to-roll printed organic photovoltaics requires a fundamental understanding of active layer morphologies optimized for charge separation and transport, and which ingredients can be used to self-assemble those morphologies. In this review article we discuss advances in three areas of computational modeling that provide insight into active layer morphology and the charge transport properties that result. We explain the computational bottlenecks prohibiting atomistically-detailed simulations of device-scale active layers and the coarse-graining and hardware acceleration strategies for overcoming them. We review coarse-grained simulations of organic photovoltaic active layers and show that high throughput simulations of...
Originally published by InTech, available from http://www.intechopen.com/books/third-generation-phot...
The goal of this project is to help experimentalists choose ingredients and conditions for synthesiz...
Organic photovoltaics (OPVs) are flexible, low cost and easily processable, which provides them with...
Rationally designing roll-to-roll printed organic photovoltaics requires a fundamental understanding...
This thesis utilises computational simulations to investigate the relationship between morphological...
The sun produces 1020 W m-2 of energy per day; that is, in one hour, the earth receives enough energ...
Organic solar cells capable of sustainably generating electricity are possible if: (1) The structure...
Organic photovoltaic devices, which include polymer-based solar cells, show promise as cheap alterna...
The goal of this research is to understand how temperature, solvent quality, solvent amount, and the...
Evaluating new, promising organic molecules to make next-generation organic optoelectronic devices n...
As humanity's energy consumption continues to increase for the coming decades, with our knowledge of...
A single junction solar cell can possess a theoretical maximum efficiency of 33.7%; the closer solar...
Semiconducting materials made from carbon-based molecules are potential replacements for inorganic s...
© 2017 Dr. Kyra Noelle SchwarzOrganic photovoltaics have attracted significant interest due to their...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
Originally published by InTech, available from http://www.intechopen.com/books/third-generation-phot...
The goal of this project is to help experimentalists choose ingredients and conditions for synthesiz...
Organic photovoltaics (OPVs) are flexible, low cost and easily processable, which provides them with...
Rationally designing roll-to-roll printed organic photovoltaics requires a fundamental understanding...
This thesis utilises computational simulations to investigate the relationship between morphological...
The sun produces 1020 W m-2 of energy per day; that is, in one hour, the earth receives enough energ...
Organic solar cells capable of sustainably generating electricity are possible if: (1) The structure...
Organic photovoltaic devices, which include polymer-based solar cells, show promise as cheap alterna...
The goal of this research is to understand how temperature, solvent quality, solvent amount, and the...
Evaluating new, promising organic molecules to make next-generation organic optoelectronic devices n...
As humanity's energy consumption continues to increase for the coming decades, with our knowledge of...
A single junction solar cell can possess a theoretical maximum efficiency of 33.7%; the closer solar...
Semiconducting materials made from carbon-based molecules are potential replacements for inorganic s...
© 2017 Dr. Kyra Noelle SchwarzOrganic photovoltaics have attracted significant interest due to their...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
Originally published by InTech, available from http://www.intechopen.com/books/third-generation-phot...
The goal of this project is to help experimentalists choose ingredients and conditions for synthesiz...
Organic photovoltaics (OPVs) are flexible, low cost and easily processable, which provides them with...